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The first stage of Fig. 2 depicts an irregular structure generated after the subdivision and triangulation of the original data set. The area shown in Fig. 2 is free from any systematic errors: the 3D print was started with the initial condition, i.e., the 3D rigid body. The direction of the solidification is also parallel to the xz-plane, so the 3D rigid body is aligned in the direct x-axis direction. Next, the print moves into the y-direction, which is perpendicular to the surface shown in red. When the surface is approached, the directional vector of solidification starts moving down, which changes the orientation of the print. Figure 2 shows the subsequent orientation that results in a jet stream mainly running in the z-direction. In the second stage, the model was subdivided and triangulated in the z-direction (perpendicular to the direction of flow). The 3D print was moved upwards when the orientation changed. Figure 2 shows the regularized surface after the stop condition for the directional solidification. Figure 2 shows the surface after the second stage. The crystal of the present application is not shaped, and the final process is done in the third stage, where the original model was oriented and a mesh was generated by this procedure. The geometry should be rotated around the direction of the solidification to avoid any systematic errors. Furthermore, the 3D mesh should be rotated around the y-axis to obtain a mesh that fits all cross-sections. The computer-aided design (CAD) of a finished part is illustrated in Fig. 3.
A model allows us to simulate the solidification process and erosion of the casting, or the surface of the print, in 3D. The computer-aided design of a finished part can be shown in Fig. 3 and is described in the example section below. The model shown in Fig. 2 was subdivided and triangulated in the z-direction. The direction of solidification is indicated by red lines. Once the solidification is started, the formation of a jet stream can be demonstrated: the 3D mesh is equipped with a heat sink in the larger mesh to allow heat to be dissipated. The large face has a negative gradient, which is effective for the formation of a jet stream. d2c66b5586